// // Copyright © 2017 Arm Ltd. All rights reserved. // SPDX-License-Identifier: MIT // #include "ClLayerSupport.hpp" #include "ClBackendId.hpp" #include #include #include #include #include #ifdef ARMCOMPUTECL_ENABLED #include "workloads/ClAdditionWorkload.hpp" #include "workloads/ClActivationWorkload.hpp" #include "workloads/ClBatchNormalizationFloatWorkload.hpp" #include "workloads/ClConvertFp16ToFp32Workload.hpp" #include "workloads/ClConvertFp32ToFp16Workload.hpp" #include "workloads/ClConvolution2dWorkload.hpp" #include "workloads/ClDepthwiseConvolutionWorkload.hpp" #include "workloads/ClDivisionFloatWorkload.hpp" #include "workloads/ClFullyConnectedWorkload.hpp" #include "workloads/ClL2NormalizationFloatWorkload.hpp" #include "workloads/ClLstmFloatWorkload.hpp" #include "workloads/ClMultiplicationWorkload.hpp" #include "workloads/ClNormalizationFloatWorkload.hpp" #include "workloads/ClPadWorkload.hpp" #include "workloads/ClPermuteWorkload.hpp" #include "workloads/ClPooling2dWorkload.hpp" #include "workloads/ClSoftmaxBaseWorkload.hpp" #include "workloads/ClSubtractionWorkload.hpp" #endif using namespace boost; namespace armnn { namespace { ILayerSupportSharedPtr GetLayerSupportPointer() { static ILayerSupportSharedPtr instance{new ClLayerSupport}; return instance; } static StaticRegistryInitializer g_RegisterHelper{ LayerSupportRegistryInstance(), ClBackendId(), []() { return GetLayerSupportPointer(); } }; template bool IsMatchingSize2d(const TensorInfo& weightInfo) { // Width & Height must match. return (weightInfo.GetShape()[3] == FilterSize) && (weightInfo.GetShape()[2] == FilterSize); } template bool IsMatchingStride(uint32_t actualStride) { return ValidStride == actualStride; } template bool IsMatchingStride(uint32_t actualStride) { return IsMatchingStride(actualStride) || IsMatchingStride(actualStride); } bool IsClBackendSupported(Optional reasonIfUnsupported) { #if ARMCOMPUTECL_ENABLED return true; #else if (reasonIfUnsupported) { reasonIfUnsupported.value() = "The armnn library has been built without CL support"; } return false; #endif } #if ARMCOMPUTECL_ENABLED #define FORWARD_CL_LAYER_SUPPORT_FUNC(expr) (expr) #else #define FORWARD_CL_LAYER_SUPPORT_FUNC(expr) IsClBackendSupported(reasonIfUnsupported) #endif #if ARMCOMPUTECL_ENABLED template inline bool IsWorkloadSupported(FuncType&& func, Optional reasonIfUnsupported, Args&&... args) { arm_compute::Status aclStatus = func(std::forward(args)...); const bool supported = (aclStatus.error_code() == arm_compute::ErrorCode::OK); if (!supported && reasonIfUnsupported) { reasonIfUnsupported.value() = aclStatus.error_description(); } return supported; } #define FORWARD_WORKLOAD_VALIDATE_FUNC(func, reasonIfUnsupported, ...) \ return IsWorkloadSupported(func, reasonIfUnsupported, __VA_ARGS__); #else #define FORWARD_WORKLOAD_VALIDATE_FUNC(func, reasonIfUnsupported, ...) \ return IsClBackendSupported(reasonIfUnsupported); #endif template bool IsSupportedForDataTypeCl(Optional reasonIfUnsupported, DataType dataType, FloatFunc floatFuncPtr, Uint8Func uint8FuncPtr, Params&&... params) { return IsClBackendSupported(reasonIfUnsupported) && IsSupportedForDataTypeGeneric(reasonIfUnsupported, dataType, floatFuncPtr, floatFuncPtr, uint8FuncPtr, std::forward(params)...); } } // anonymous namespace bool ClLayerSupport::IsActivationSupported(const TensorInfo& input, const TensorInfo& output, const ActivationDescriptor& descriptor, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClActivationWorkloadValidate, reasonIfUnsupported, input, output, descriptor); } bool ClLayerSupport::IsAdditionSupported(const TensorInfo& input0, const TensorInfo& input1, const TensorInfo& output, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClAdditionValidate, reasonIfUnsupported, input0, input1, output); } bool ClLayerSupport::IsBatchNormalizationSupported(const TensorInfo& input, const TensorInfo& output, const TensorInfo& mean, const TensorInfo& var, const TensorInfo& beta, const TensorInfo& gamma, const BatchNormalizationDescriptor& descriptor, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClBatchNormalizationValidate, reasonIfUnsupported, input, output, mean, var, beta, gamma, descriptor); } bool ClLayerSupport::IsConstantSupported(const TensorInfo& output, Optional reasonIfUnsupported) const { return IsSupportedForDataTypeCl(reasonIfUnsupported, output.GetDataType(), &TrueFunc<>, &FalseFuncU8<>); } bool ClLayerSupport::IsConvertFp16ToFp32Supported(const TensorInfo& input, const TensorInfo& output, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClConvertFp16ToFp32WorkloadValidate, reasonIfUnsupported, input, output); } bool ClLayerSupport::IsConvertFp32ToFp16Supported(const TensorInfo& input, const TensorInfo& output, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClConvertFp32ToFp16WorkloadValidate, reasonIfUnsupported, input, output); } bool ClLayerSupport::IsConvolution2dSupported(const TensorInfo& input, const TensorInfo& output, const Convolution2dDescriptor& descriptor, const TensorInfo& weights, const Optional& biases, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClConvolution2dWorkloadValidate, reasonIfUnsupported, input, output, descriptor, weights, biases); } bool ClLayerSupport::IsDepthwiseConvolutionSupported(const TensorInfo& input, const TensorInfo& output, const DepthwiseConvolution2dDescriptor& descriptor, const TensorInfo& weights, const Optional& biases, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClDepthwiseConvolutionWorkloadValidate, reasonIfUnsupported, input, output, descriptor, weights, biases); } bool ClLayerSupport::IsDivisionSupported(const TensorInfo& input0, const TensorInfo& input1, const TensorInfo& output, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClDivisionWorkloadValidate, reasonIfUnsupported, input0, input1, output); } bool ClLayerSupport::IsFakeQuantizationSupported(const TensorInfo& input, const FakeQuantizationDescriptor& descriptor, Optional reasonIfUnsupported) const { ignore_unused(input); ignore_unused(descriptor); ignore_unused(reasonIfUnsupported); return false; } bool ClLayerSupport::IsFloorSupported(const TensorInfo& input, const TensorInfo& output, Optional reasonIfUnsupported) const { ignore_unused(output); return IsClBackendSupported(reasonIfUnsupported) && IsSupportedForDataTypeGeneric(reasonIfUnsupported, input.GetDataType(), &FalseFuncF16<>, &TrueFunc<>, &FalseFuncU8<>); } bool ClLayerSupport::IsFullyConnectedSupported(const TensorInfo& input, const TensorInfo& output, const TensorInfo& weights, const TensorInfo& biases, const FullyConnectedDescriptor& descriptor, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClFullyConnectedWorkloadValidate, reasonIfUnsupported, input, output, weights, biases, descriptor); } bool ClLayerSupport::IsInputSupported(const TensorInfo& input, Optional reasonIfUnsupported) const { return IsSupportedForDataTypeCl(reasonIfUnsupported, input.GetDataType(), &TrueFunc<>, &TrueFunc<>); } bool ClLayerSupport::IsL2NormalizationSupported(const TensorInfo& input, const TensorInfo& output, const L2NormalizationDescriptor& descriptor, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClL2NormalizationWorkloadValidate, reasonIfUnsupported, input, output, descriptor); } bool ClLayerSupport::IsLstmSupported(const TensorInfo& input, const TensorInfo& outputStateIn, const TensorInfo& cellStateIn, const TensorInfo& scratchBuffer, const TensorInfo& outputStateOut, const TensorInfo& cellStateOut, const TensorInfo& output, const LstmDescriptor& descriptor, const TensorInfo& inputToForgetWeights, const TensorInfo& inputToCellWeights, const TensorInfo& inputToOutputWeights, const TensorInfo& recurrentToForgetWeights, const TensorInfo& recurrentToCellWeights, const TensorInfo& recurrentToOutputWeights, const TensorInfo& forgetGateBias, const TensorInfo& cellBias, const TensorInfo& outputGateBias, const TensorInfo* inputToInputWeights, const TensorInfo* recurrentToInputWeights, const TensorInfo* cellToInputWeights, const TensorInfo* inputGateBias, const TensorInfo* projectionWeights, const TensorInfo* projectionBias, const TensorInfo* cellToForgetWeights, const TensorInfo* cellToOutputWeights, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClLstmFloatWorkloadValidate, reasonIfUnsupported, input, outputStateIn, cellStateIn, scratchBuffer, outputStateOut, cellStateOut, output, descriptor, inputToForgetWeights, inputToCellWeights, inputToOutputWeights, recurrentToForgetWeights, recurrentToCellWeights, recurrentToOutputWeights, forgetGateBias, cellBias, outputGateBias, inputToInputWeights, recurrentToInputWeights, cellToInputWeights, inputGateBias, projectionWeights, projectionBias, cellToForgetWeights, cellToOutputWeights); } bool ClLayerSupport::IsMeanSupported(const TensorInfo& input, const TensorInfo& output, const MeanDescriptor& descriptor, Optional reasonIfUnsupported) const { ignore_unused(input); ignore_unused(output); ignore_unused(descriptor); ignore_unused(reasonIfUnsupported); return false; } bool ClLayerSupport::IsMergerSupported(const std::vector inputs, const OriginsDescriptor& descriptor, Optional reasonIfUnsupported) const { ignore_unused(descriptor); return IsSupportedForDataTypeCl(reasonIfUnsupported, inputs[0]->GetDataType(), &TrueFunc<>, &FalseFuncU8<>); } bool ClLayerSupport::IsMultiplicationSupported(const TensorInfo& input0, const TensorInfo& input1, const TensorInfo& output, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClMultiplicationWorkloadValidate, reasonIfUnsupported, input0, input1, output); } bool ClLayerSupport::IsNormalizationSupported(const TensorInfo& input, const TensorInfo& output, const NormalizationDescriptor& descriptor, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClNormalizationWorkloadValidate, reasonIfUnsupported, input, output, descriptor); } bool ClLayerSupport::IsOutputSupported(const TensorInfo& output, Optional reasonIfUnsupported) const { return IsSupportedForDataTypeCl(reasonIfUnsupported, output.GetDataType(), &TrueFunc<>, &TrueFunc<>); } bool ClLayerSupport::IsPadSupported(const TensorInfo& input, const TensorInfo& output, const PadDescriptor& descriptor, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClPadValidate, reasonIfUnsupported, input, output, descriptor); } bool ClLayerSupport::IsPermuteSupported(const TensorInfo& input, const TensorInfo& output, const PermuteDescriptor& descriptor, Optional reasonIfUnsupported) const { ignore_unused(input); ignore_unused(output); FORWARD_WORKLOAD_VALIDATE_FUNC(ClPermuteWorkloadValidate, reasonIfUnsupported, descriptor); } bool ClLayerSupport::IsPooling2dSupported(const TensorInfo& input, const TensorInfo& output, const Pooling2dDescriptor& descriptor, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClPooling2dWorkloadValidate, reasonIfUnsupported, input, output, descriptor); } bool ClLayerSupport::IsReshapeSupported(const TensorInfo& input, Optional reasonIfUnsupported) const { ignore_unused(input); ignore_unused(reasonIfUnsupported); return true; } bool ClLayerSupport::IsResizeBilinearSupported(const TensorInfo& input, Optional reasonIfUnsupported) const { return IsSupportedForDataTypeCl(reasonIfUnsupported, input.GetDataType(), &TrueFunc<>, &FalseFuncU8<>); } bool ClLayerSupport::IsSoftmaxSupported(const TensorInfo& input, const TensorInfo& output, const SoftmaxDescriptor& descriptor, Optional reasonIfUnsupported) const { ignore_unused(descriptor); FORWARD_WORKLOAD_VALIDATE_FUNC(ClSoftmaxWorkloadValidate, reasonIfUnsupported, input, output); } bool ClLayerSupport::IsSplitterSupported(const TensorInfo& input, const ViewsDescriptor& descriptor, Optional reasonIfUnsupported) const { ignore_unused(descriptor); return IsSupportedForDataTypeCl(reasonIfUnsupported, input.GetDataType(), &TrueFunc<>, &TrueFunc<>); } bool ClLayerSupport::IsSubtractionSupported(const TensorInfo& input0, const TensorInfo& input1, const TensorInfo& output, Optional reasonIfUnsupported) const { FORWARD_WORKLOAD_VALIDATE_FUNC(ClSubtractionValidate, reasonIfUnsupported, input0, input1, output); } } // namespace armnn